Add to ORKGBackground and Aims The problem of increasing CO2 concentration [CO2] and associated climate change has [CO2] on plants. While variation in growth and productivity is generated much interest in modelling effects of closely related to the amount of intercepted radiation, largely determined by leaf area index (LAI), effects of elevated [CO2] on growth are primarily via stimulation of leaf photosynthesis. Variability in LAI depends on climatic and growing conditions including [CO2] concentration and can be high, as is known for agricultural crops which are specifically emphasized in this report. However, modelling photosynthesis has received much attention and photosynthesis is often represented inadequately detailed in plant productivity mode...
Results from 16 free-air CO₂ enrichment (FACE) sites representing four different global vegetation t...
The ability to accurately predict land-atmosphere exchange of mass, energy, and momentum over the co...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Background and Aims The problem of increasing CO2 concentration [CO2] and associated climate change ...
We described canopy acclimation of wheat using computer models. It is necessary to model the acclima...
Background - Process-based ecophysiological crop models are pivotal in assessing responses of crop p...
Elevated CO2 enhances photosynthesis and growth of plants, but the enhancement is strongly influence...
Elevated CO2 enhances photosynthesis and growth of plants, but the enhancement is strongly influence...
The predictive capacity of two simulation models with different degrees of complexity for the calcul...
Elevated CO2 increases leaf-level water-use efficiency (ω) almost universally. How canopy-leveltrans...
Previous studies of photosynthetic acclimation to elevated CO2 have focused on the most recently exp...
International audienceAbstract Evaluating leaf day respiration rate (RL), which is believed differ f...
How plants respond to climate change is of major concern, as plants will strongly impact future ecos...
Results from 16 free-air CO2 enrichment (FACE) sites representing four different global vegetation t...
Elevated atmospheric CO2 concentration is expected to increase leaf CO2 assimilation rates, thus pro...
Results from 16 free-air CO₂ enrichment (FACE) sites representing four different global vegetation t...
The ability to accurately predict land-atmosphere exchange of mass, energy, and momentum over the co...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...
Background and Aims The problem of increasing CO2 concentration [CO2] and associated climate change ...
We described canopy acclimation of wheat using computer models. It is necessary to model the acclima...
Background - Process-based ecophysiological crop models are pivotal in assessing responses of crop p...
Elevated CO2 enhances photosynthesis and growth of plants, but the enhancement is strongly influence...
Elevated CO2 enhances photosynthesis and growth of plants, but the enhancement is strongly influence...
The predictive capacity of two simulation models with different degrees of complexity for the calcul...
Elevated CO2 increases leaf-level water-use efficiency (ω) almost universally. How canopy-leveltrans...
Previous studies of photosynthetic acclimation to elevated CO2 have focused on the most recently exp...
International audienceAbstract Evaluating leaf day respiration rate (RL), which is believed differ f...
How plants respond to climate change is of major concern, as plants will strongly impact future ecos...
Results from 16 free-air CO2 enrichment (FACE) sites representing four different global vegetation t...
Elevated atmospheric CO2 concentration is expected to increase leaf CO2 assimilation rates, thus pro...
Results from 16 free-air CO₂ enrichment (FACE) sites representing four different global vegetation t...
The ability to accurately predict land-atmosphere exchange of mass, energy, and momentum over the co...
Increasing atmospheric carbon dioxide (CO2) directly affects plant physiology. Using a coupled land...